JPH0885156A - Compounded material and its preparation - Google Patents

Abstract

PURPOSE: To provide a molded article of a compd. material and a method for producing the same. CONSTITUTION: A carrier material 2 is a molded article bonded to a particulate foam 5 of a polymer. In a first process, at least one bonding layer 12 is applied to the carrier material 2 and, in a second process, a pre-produced compd. of the carrier material of the bonding layer 12 is guided into a foaming device so that the bonding layer 2 is turned to a cavity for foaming particles. Thereafter, particles 3 comprising the same polymer matrix material as the bonding layer 12 are foamed in the cavity. An almost unseparated bond is formed between the carrier material 2 and the particulate foam 5. The bonding layer contains the foamed particles 3 or regenerated particles. At least one surface of the carrier material is made adhesive to form an adhesive layer 11 in which the foamed particles 3 or regenerated particles are embedded.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a molding of a compound material containing at least one carrier material and a particulate foam of a polymer, and a method for producing such a molding.

[0002]

Polymeric compound materials are known per se and are used for a wide variety of purposes. A preferred use is to adhere light foam moldings to harder, more mechanically strong coating layers. In the packaging industry, the cost of disposing of disposable foam packages can be avoided at a maximum.

DE-AS 2622777B2 describes a method and an apparatus for the continuous production of laminated materials containing expanded particles. The surface of any carrier band that can be composed of a plastic film is first made tacky by heating and then coated with expanded particles and pressed. The expanded particles used for this purpose virtually no longer expand during the process of processing the compound. In order to form a thicker stack, the expanded beads are brought into close contact with each other by heating the surface of the respective final layer. When the expanded particles which are not adhered thereon are removed and the application of the expanded particles is repeated in layers, the bonding of all the expanded particles remaining in the layer is ensured. This method allows the production of only strips of material. Molded articles cannot be produced using this method because the expanded particles are applied in layers.

US Pat. No. 328559 also describes a method for producing a band-shaped material, in which plastic particles are sprinkled on a heated roller or a carrier film. In the latter case, the expanded particles form only a single layer 2
The material of the layer is obtained. Due to the difference in the expansion coefficient of both layers, hollow articles can be produced, for example, from this strip of material.

On the other hand, a method of manufacturing a molded article of a compound material is known, and in this method, a carrier material (thin film) is introduced into a foaming tool of a foaming device. The film is then foamed from the back or the film is baked onto the outside of the foam molding produced in another operation.

[0006] For example, AT235563 describes a method for producing a foamable plastic molded article, in which an expandable polystyrene (exp) is used.
Particles of andable polystyrol EPS) are filled into the mold and a plate of thermoplastic material is placed on top. The plate is first softened by heating, and due to the effect of mechanical pressure and further heat, the EPS particles are
Bond particles to each other and to a plate.

Known in EP0231727 is:
First, there is a method for producing a molded article, in which a foamed portion is manufactured in a mold, taken out from the mold, a plastic thin film is inserted into the same mold, and then the thin film is adhered to the prefabricated foamed portion.

Another known possibility is to adhere the film to the particle foam after achieving the deformation of the film in the mold by vacuum forming.

However, the moldings produced by the above-mentioned method have the disadvantage that they result in insufficient adhesion of the carrier material to the particle foam. This significantly reduces the stability and durability of the final product.

Attempts have been made to overcome these problems by using homogeneous or identical materials, for example EPS as the particle foam and polystyrene as the carrier material. However, the enumeration of such materials decisively limits the scope of application. For example, if the compound material is 12
If steam sterilization at a temperature of 0 to 130 ° C is required,
Polystyrene is unsuitable as a carrier material.

In the automotive industry, prior to frame lamination of thin films, for example, by inserting modified polypropylene flexible thin films with or without extruded foam of EVA-modified PP or PE, The possibility of obtaining a final particle foam compound is known. Substantial drawbacks are poor shape retention under heating and poor compound adhesion of these products. In addition, the recessed or stamped film, when processed in an automatic deep-drawing device, completely or partially loses the stamping contour, which leads to visual defects.

[0012]

It is an object of the present invention to avoid the above mentioned drawbacks, in particular the carrier material can adhere well to the foamed part and give a decorative surface,
It is an object of the present invention to provide a molded article characterized in that the carrier material and the foam material can be composed of different materials. Moreover, the objective of this invention is providing the manufacturing method of such a molded product.

[0013]

This problem is solved by the method of the characterizing part of claim 1. The molded product is
It is the object of claim 12. Advantageous aspects are the subject of the subclaims.

The method of the present invention comprises the introduction of a preforming compound containing a carrier material and a bonding layer into a foaming device so as to direct the bonding layer to the cavity in which foaming takes place. The cavity is then filled with expanded particles for the production of the molded part.

One essential aspect of the invention is that the materials used are compatible with each other. Surprisingly,
If the tie layer applied to the carrier material in a separate step is composed of a polymeric matrix material similar to the expanded particles, the expanded particles that adhere to the carrier material in the foaming device will adhere more closely to the carrier material. I found out that

The prefabricated compound of carrier material and tie layer is made in a preceding step in which the carrier material is applied to the tie layer.

The tie layer can be manufactured in various ways. According to one preferred embodiment, the tie layer is made from expanded beads similar to those during the subsequent expansion process. According to a different method, after at least one surface of the carrier material has been brought into the adhesive state (adhesive layer) during the first step of the method, the expanded particles are preferably applied in a single layer.

The adhesive action of the expanded particles on the carrier material is
It can also be improved by partially pressing the foam layer into the adhesive layer of the carrier material. On the other hand, in the known method, the expanded particles are only allowed to sinter in the carrier material, and intimate adhesion between the carrier material and the expanded particles is obtained in the step of the first method. In the second method step, the expanded particles located on the carrier material then adhere to other expanded particles that have moved into the cavity of the expansion device. It has been found that the bonding of the expanded particles within the molding cavity is as good as the mutual bonding between these expanded particles themselves.
A molding is thus obtained in which the carrier material can no longer be separated from the foamed part.

During the foaming process in the mould, the hollow spaces that are necessarily present between the individual foamed particles are filled with the foamed particles that are present in the mould, and each foamed particle present in the particle layer is , Compressed to some extent. There is no change regarding the embedding of the foam material in the carrier material during the foaming process.

If the carrier material is thin, the expanded particles of the tie layer may be subject to impressing conditions, thus engraving and marking themselves on the outer surface, leading to an unintended surface improvement of the carrier material. . This can be avoided by forming a tie layer, preferably a tie layer with a coating. The coating has a rough surface on the side facing away from the carrier material, which achieves good adhesion of the expanded particles that expand during the steps of the second method of the method. This rough surface coating can be applied by spraying or by methods such as rollers, doctor blades and the like.

According to another embodiment, regenerated particles can be coated on the carrier material instead of the expanded particles of the tie layer. Regenerated particles are understood to be particles formed during the regeneration process by mechanically grinding already used moldings into dust or small, unwanted particles.

Compared to the circular expanded particles, these particles are preferably up to 1.6 mm ² in size and have a very irregularly shaped surface which improves the desired adhesion effect. Alternatively, the carrier layer can be made quite thin if the structure of the particles is not reflected in the surface of the final compound.

The adhesive layer can also be produced by modifying at least one surface of the carrier material or by applying an adhesive layer, in which case
The regenerated particles are preferably pressed into the adhesive layer.

Before the application of the tie layer, it is preferred to adapt the outside of the molded article to the given properties, such as appearance, resistance value, penetration of germicides, which the carrier material was not compatible with due to its properties. The carrier material may be bonded to at least one other layer on the side facing away from the tie layer.

The carrier material may preferably consist of a thermoplastic or thermally formable polymer film. It is extruded, shared extruded,
It can be manufactured by blow molding or blow extrusion.

When the polymer is molded by extrusion molding, the polymer film becomes plastic and the surface of the polymer does not need to be heated. Therefore, the expanded particles or the regenerated particles are applied only once after extrusion molding. This is an advantage in that

Other carrier materials may be used in place of the polymer film. The material is a support material with an adhesive film of latex or PE powder, these materials acting as an adhesive exhibiting an adhesive state before application of the expanded particles.

Both carrier materials coated on one side and on both sides with a tie layer can be used. When coated on both sides, the respective carrier material surface layers can be provided with the expanded or regenerated particles first on one side and then on the other side successively after adequate heating. However, the carrier material can also be guided vertically and the expanded or regenerated particles can be applied simultaneously to both sides of the carrier material.

When the prefabricated compound of carrier material and tie layer is introduced into the foamer mold, coining of the carrier material, imprinting, or application of lighting can occur simultaneously with foaming.

The prefabricated compound material can be introduced into the foaming device from rolls or in individually cut form. When producing molded parts, the preformed compound is appropriately deformed during the foaming process.

The moldings are characterized in that the expanded particles are bonded to the carrier via at least one tie layer, which expanded particles consist of the same matrix polymer material as the tie layer. The tie layer can also include expanded particles to generate a particle foam with the remaining expanded particles.

The tie layer may also be composed of regenerated particles or it may be formed of a coating having a rough surface. Preferably, the expanded or reclaimed particles are embedded in the adhesive layer, thereby forming a compound with little separation. The adhesive layer is a surface layer of the carrier material,
Alternatively, it can be an adhesive layer.

The same or different materials can be used as carrier materials, depending on which molding is involved or which application the intended molding is intended for.
The interrelationship of various materials must be considered when a combination of materials is included.

According to a first aspect, the carrier material is a modified thermoplastic monolayer or multilayer polymer thin film, the surface film of which forms an adhesive layer in which expanded or regenerated particles are embedded. . Carrier materials include filler-free or modified homo PP, block PP, or random PP. This material can be easily combined with expanded or regenerated particles made of EPE, or LDPE and / or MDPE and / or HDPE expanded or regenerated particles with poristol. In addition, EPE, EPS,
EPP, or EPMMA expanded particles or mixtures of these materials can also be used.

According to another aspect, the carrier material comprises a polypropylene / polyethylene blend, the polyethylene being HDPE, MDPE, LDPE, or EVA-LD.
PE, and the particle foam is composed of EPE or EPMMA.

The coextruded film has polypropylene on its outside and the side facing the expanded particles is MSA-grafted or acrylate-grafted LDPE.
Sufficient affinity for EPS expanded particles and outer polypropylene layer, if modified polyolefins such as
Guaranteed by polypropylene content.

According to another aspect, the carrier material can be a support material having an adhesive layer of latex or dispersed polyethylene powder. The support material can then be woven into a monofilament, multifilament, or tufted fabric.

Further, as a supporting material in question,
Woven tape or needle felt may be mentioned.
The woven monofile can preferably be used as an outer layer of a bumper or as a multi-use container, the mono-file fabric is not only a protection for the particulate foam, but a hinge of the moving part of the multi-use container. Functions can also be included.

Preferably, the support material is capable of supporting a metal foil, such as aluminum or copper, on the opposite sides away from the expanded particles. In such cases, the molded article is suitable for mobile homes or heat vessels. Copper foil is suitable for moldings to achieve electrical shielding.

The foil additionally applied to the carrier material is
Further, a polymer thin film made of homo PP containing a metal filler can be used. Such a polymer film can be a decorative film, in particular a wooden product or a woodgrain decorative film, or the support material can be a wooden decorative material for use as a tabletop or for the use of furniture in the manufacture of furniture. The board can be supported.

Reinforcing materials may be embedded in the particle foam to improve the stability of the molded article. Plastic plates with a suitable solution are preferably used for this purpose.

However, there is also the possibility of incorporating optional reinforcing profiles in the particulate foam.

As an alternative to the reinforced profile, a woven fabric may be present inside the particle foam.

If a double-sided support material is used to produce the molding, the support material is located inside the molding.

The process according to the invention enables the production of versatile packaging, for example moldings such as can be used in particular in the food industry, which, by using a suitable support material, can be made into EPS or other thermosensitive materials. Portions of the hydrophilic particle foam can be sterilized for disposable packaging. The compound material is tuned by the choice of carrier material on the particle foam so that when its usefulness is regenerated, the valuable material can be regenerated into useful particles and reprocessed using injection molding or pressure methods. be able to.

[0046]

The exemplary embodiments are explained in more detail below with the aid of the drawings.

Shown in FIG. 1 is a cross-sectional view of a molded article 1 having a polymer thin film as carrier material 2 on its outer side and particle foam 5 on the other side. Adjacent to the polymer film 2 is a monolayer 4 of expanded particles 3 forming a tie layer 12. As shown in FIG. 2, the expanded particles 3 of the tie layer 2 are at least partially embedded in the polymer film. The region in which the expanded particles 3 of the monolayer 4 are embedded in the polymer thin film forms the adhesive layer 11 of the carrier material 2.

The expanded particles 3 of the monolayer 4 are bonded to the rest of the expanded particles 3 in the usual way in a foaming device. In general, the expanded particles of the monolayer 4 have the same dimensions as the expanded particles of the rest of the particle foam 5. The voids of the single layer 4 are filled with the adjacent foam particles 3.

In FIG. 3, the adhesive layer having the regenerated particles 3 forming the bonding layer 12 embedded therein is applied to the carrier material as the adhesive layer 11. The regenerated particles 13 are made of the same polymer matrix material as the expanded particles 3 of the particle foam 5.

FIG. 4 illustrates an embodiment of a tie layer 12 including a coating 14 having a rough surface.

FIG. 5 shows another embodiment, in which an outer layer 6 is applied to the outside of the polymer film forming the carrier material. The polymer film and the outer layer 6 are adhered to each other before the particle coating is applied.
The outer layer 6 may include, for example, a decorative thin film or a metal film.

In the embodiment shown in FIG. 6, the molding has all three layers 2, 5 and 7. In this embodiment, the carrier material 2 has on its outside two additional layers 6,7.
And the layers are adhered to the carrier material 2 prior to particle coating, as in FIG. Layers 2, 6 and 7 may comprise coextruded thin films, and individual layers 2, 6 and 7 may be formed of different materials. However, it is also possible for layers 2 and 7 to be coextruded thin films and for layer 6 to be a metal film. Another possibility is to apply the layers 6 and 7 as coextruded thin films to a carrier material 2 which can consist of polymeric thin films or fabrics. There are various material combinations and for each material of the tie layer 12 and each of the layers 7 and 6 the carrier material 2 is provided such that a proper adhesion of all compound materials is obtained.
Care must be taken to have the appropriate affinity.

FIG. 7 shows another embodiment, in which the reinforcing material in the form of a plastic plate 8 with apertures 9 is arranged in the particle foam.

FIG. 8 shows a cross section of a crate, the carrier material 2 of which has, for example, a sterilized outer layer 6 on its outside. This allows the production of shaped articles that are steam sterilizable due to the provision of a suitable outer layer 6 despite the thermosensitive particulate foam material 5.

[Brief description of drawings]

FIG. 1 is a sectional view of a compound material.

FIG. 2 is an enlarged view of X in FIG.

FIG. 3 is a cross-sectional view of another embodiment compound material.

FIG. 4 is a cross-sectional view of another embodiment of compound material.

FIG. 5 is a cross-sectional view of another embodiment compound material.

FIG. 6 is a cross-sectional view of another embodiment of compound material.

FIG. 7 is a cross-sectional view of another embodiment compound material.

FIG. 8 is a sectional view of a crate.

Claims (22)

[Claims] 1. A method for producing a molded article, in which a polymer particle foam is adhered to a carrier material, wherein a preformed compound containing a carrier material (2) and a bonding layer (12) is introduced into a foaming device. And the tie layer (1
After directing 2) to the cavity in which foaming takes place, the cavity is expanded and filled with expanded particles (3) of a polymer matrix material similar to the tie layer (12). 2. Foamed particles (3) or regenerated particles (13) are used as carrier material (2) to form a bonding layer (12).
The method according to claim 1, which is applied to 3. In order to produce an adhesive layer (11), the carrier material (2) is changed into an adhesive state at least on the surface, or expanded particles (3) or regenerated particles (13) of the bonding layer (12). 3. The method according to claim 2, wherein an adhesive layer coated with is applied to the carrier material (2). 4. The method according to claim 2, wherein the expanded particles (3) of the tie layer (12) are applied in a single layer (4). 5. Foamed particles (3) or regenerated particles (13) of the tie layer are partially pressed into the carrier material (2) or the adhesive layer according to any one of claims 2 to 4. The method described. 6. The adhesive layer is formed of latex or PE powder, and the latex layer or PE powder layer is formed of expanded particles (3).
A method according to any one of claims 2 to 5, wherein the method is brought into an adhesive state before applying. 7. The carrier material (2) comprises a tie layer (12).
7. Method according to any one of the preceding claims, wherein prior to the application, the at least one layer material (6, 7) is adhered on the side facing away from the tie layer (12). 8. The carrier material (2) comprises a thermoplastic or thermally deformable polymer film.
The method described in. 9. The method according to claim 1, wherein the polymer film is produced by extrusion, coextrusion, blow molding, or blow extrusion. 10. The polymer film, after extrusion,
10. A method according to claim 9, provided with expanded particles (3) or regenerated particles (13) when still in a plastic state. 11. The method according to claim 1, wherein a coating (14) having a rough surface on the side facing away from the carrier material is applied to the carrier material as a tie layer (12). 12. At least one carrier material (2)
And a polymer particle foam (5), wherein the expanded particles (3) are bonded to the carrier material (2) through at least one tie layer (12). 3) A molded article, characterized in that it is made of a matrix polymer material similar to that of the bonding layer (12). 13. Molded article according to claim 12, wherein the tie layer (12) comprises expanded particles (3), which expanded particles together with the rest of the expanded particles form a particle foam (5). 14. The molded product according to claim 12, wherein the expanded particles (3) are embedded in the adhesive layer (11). 15. Molded article according to claim 14, wherein the adhesive layer (11) is a surface layer of the carrier material (2) or an adhesive film. 16. Bonding layer (12) comprising regenerated particles (13).
Molded article according to claim 12, formed from or from a coating (14) having a rough surface. 17. The carrier material is a modified thermoplastic single-layer or multi-layer polymer thin film according to claims 12 to 1.
The molded product according to any one of 6 above. 18. The carrier material (2) is filled,
MSA containing homo PP, block PP or random PP, polypropylene in unfilled or modified state
Graft or acrylate grafted LDPE or polypropylene / polyethylene mixture containing polyethylene, HDPE, MDPE, LDPE or EVA-LD
The molded article according to any one of claims 12 to 17, which is PE. 19. The foam material (3) is EPE, EPS,
Molded article according to any one of claims 13 to 18, containing EPP, or EPMMA or a mixture of these materials, or a mixture of LDPE and / or MDPE and / or HDPE containing polystyrene. 20. The carrier material (2) carries a metal foil, an additional polymer film (6, 7) or a wooden board on the side facing away from the expanded particles (3). 20. The molded product according to claim 1. 21. An additional polymer film (6, 7) is provided.
21. The molded article according to claim 20, which is a homo PP containing a mineral filler or a decorative thin film for a wooden product. 22. The reinforcing material (8) is a particulate foam (5).
22. A molded article according to any one of claims 12 to 21 incorporated therein.